Removal of Hexavalent Chromium from Aqueous Solution Using Olive Tree Bark as Natural Adsorbent

Authors

  • Ali Safaa Al Shamaa University of Baghdad
  • Majid R. Majed Al-palany University of Baghdad

Keywords:

Agricultural Waste, Heavy Metals, standard aqueous solution, Water Pollution

Abstract

This study examined the adsorption behavior of olive bark as a natural adsorbent to remove chromium (Cr) from aqueous solution by packed bed column technique (PBC) based on Box – Wilson design. This study involved the preparation of two batches of olive bark pieces. The first batch is raw pieces of bark with no treatment with chemicals. Strips of bark were taken from an olive tree and were cut into pieces by an agricultural scissor, some were cut into small pieces 4-6mm in size and other into big pieces 8-10mm in size. They were washed with distilled water to remove dirt from the sample and then dried in an oven at 100 °C for 2 hours. For the second batch, the strips of bark were also cut into small and big pieces and washed with distilled water. But then were modified by acid / base treatment, then they were dried in an oven. Next, each of the small and big pieces of the untreated batch were packed separately in three different columns about 3/4 of its length. Each column has a certain pH of chromium aqueous solution and contact time, same was done for the pieces of the treated batch, then, the chromium solution after treatment was collected in test tubes to measure its concentration by using atomic absorption spectroscopy. The best performance towards chromium removal was achieved with small particle treated olive bark, which showed a removal efficiency of 84.2% for Cr at pH 5.4 and contact time 4 hr. Statistical study showed significant differences in removal efficiency at the level of probability (p ≤ 0.05). The analysis of the infrared device (FTIR) proved the presence of active groups in the olive bark after treatment, which are responsible for bonding Cr from chromium aqueous solution. FE-SEM analysis showed the morphological changes on the olive bark surface before and after treatment of chromium aqueous solution.

Author Biography

Majid R. Majed Al-palany, University of Baghdad

Assist. Prof. 

previously the Head of Biotechnology Department at the University of Baghdad from 2021–2023. 

1- B.Sc. In Biology (4 years) from Baghdad University/collage of science/Dept. of biology at 1993.
2- M.Sc. in Biotechnology (Medicinal plants), from Baghdad University /collage of science/Dept. of biotechnology at 2013. My thesis title was:
(Effect of crud plant extracts and vasicine alkaloid of Adhatoda vasica in some pathogenic microorganisms),
My M.Sc. work research was done on Adhatoda vasica plant, with Extraction, purification, Biological activity & physiochemical characterization of the main alkaloide (vasicine alkaloide) of A. vasica plant. It also includes made of five crude plant extracts with three different parts of the plant. Biological activity of this plant was studied as anti-microbial, there for Inhibitory activity of vasicine and crude extracts against nine pathogenic bacterial straines (gr+ & gr-) and also Fungi & yeast, was determined by (MIC) test.
3-PhD in Biotechnology (Plant biotechnology), from Baghdad University /collage of science/Dept. of biotechnology at 2013. My thesis title was:
(The use of fixed filters technique for removing some heavy metals from industrial waste water by plant wastes)
During my PhD. work research I studied and estimated the ability of low cost adsorbents, which consist of plant wastes (rice husk, date seeds and corn cobs) in treatment of Industrial waste water that contains heavy

metals (Cr, Ni and Zn) with other pollutants by fixed filters technique with determine the best method for that, and study the effect of a number of variables and parameters.

Published

2024-12-14

How to Cite

Al Shamaa, A. S., & Al-palany, M. R. M. (2024). Removal of Hexavalent Chromium from Aqueous Solution Using Olive Tree Bark as Natural Adsorbent . Mesopotamia Environmental Journal (mesop. Environ. J) ISSN: 2410-2598, 8(1), 48–59. Retrieved from https://mej.uobabylon.edu.iq/index.php/mej/article/view/169

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